介质阻挡放电
电极
电介质
叠加原理
悬挂(拓扑)
等离子体
材料科学
航程(航空)
机械
电刷放电
流量(数学)
静电放电
电场
等离子体驱动器
机制(生物学)
介电常数
图案形成
矩形势垒
液体电介质
局部放电
热的
物理
作者
Qiaojue Liu,Zhanhe Guo,Mengying HU,Mi You,Yangyang Chen,Shuqun Wu
标识
DOI:10.1088/1361-6463/ae57b4
摘要
Abstract Dielectric barrier discharge (DBD) has promising applications in aircraft anti-icing and de-icing due to plasma thermal effects, while enabling active flow control in specific topologies. This study pioneers the investigation of dark zone phenomena in a three-electrode DBD configuration featuring a suspension electrode—a critical distinction beyond conventional DBD system. Experimental results revealed that dark zone phenomenon would be appeared when the suspension electrode covered a certain number of buried electrodes, or was laid in a small range before and after the corresponding position. Quantitative analysis enabled classification of discharge suppression into two mechanistic modes: strong suppression mode and weak suppression mode. Theoretical modeling demonstrated that the local dark zone mechanism was attributed to the superposition of electric fields between electrodes. This fundamental understanding establishes a predictive framework for discharge pattern in multi-electrode plasma systems. The proposed dark zone regulation theory can also facilitate further applications in fields such as anti-icing and de-icing, material modification.
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